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a71c8bc5df
CONFIG_DEBUG_HOTPLUG_CPU0 is for debugging the CPU0 hotplug feature. The switch offlines CPU0 as soon as possible and boots userspace up with CPU0 offlined. User can online CPU0 back after boot time. The default value of the switch is off. To debug CPU0 hotplug, you need to enable CPU0 offline/online feature by either turning on CONFIG_BOOTPARAM_HOTPLUG_CPU0 during compilation or giving cpu0_hotplug kernel parameter at boot. It's safe and early place to take down CPU0 after all hotplug notifiers are installed and SMP is booted. Please note that some applications or drivers, e.g. some versions of udevd, during boot time may put CPU0 online again in this CPU0 hotplug debug mode. In this debug mode, setup_local_APIC() may report a warning on max_loops<=0 when CPU0 is onlined back after boot time. This is because pending interrupt in IRR can not move to ISR. The warning is not CPU0 specfic and it can happen on other CPUs as well. It is harmless except the first CPU0 online takes a bit longer time. And so this debug mode is useful to expose this issue. I'll send a seperate patch to fix this generic warning issue. Signed-off-by: Fenghua Yu <fenghua.yu@intel.com> Link: http://lkml.kernel.org/r/1352835171-3958-15-git-send-email-fenghua.yu@intel.com Signed-off-by: H. Peter Anvin <hpa@linux.intel.com>
322 lines
8.1 KiB
C
322 lines
8.1 KiB
C
/*
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* Suspend support specific for i386/x86-64.
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*
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* Distribute under GPLv2
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*
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* Copyright (c) 2007 Rafael J. Wysocki <rjw@sisk.pl>
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* Copyright (c) 2002 Pavel Machek <pavel@ucw.cz>
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* Copyright (c) 2001 Patrick Mochel <mochel@osdl.org>
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*/
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#include <linux/suspend.h>
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#include <linux/export.h>
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#include <linux/smp.h>
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#include <asm/pgtable.h>
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#include <asm/proto.h>
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#include <asm/mtrr.h>
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#include <asm/page.h>
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#include <asm/mce.h>
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#include <asm/xcr.h>
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#include <asm/suspend.h>
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#include <asm/debugreg.h>
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#include <asm/fpu-internal.h> /* pcntxt_mask */
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#include <asm/cpu.h>
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#ifdef CONFIG_X86_32
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static struct saved_context saved_context;
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unsigned long saved_context_ebx;
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unsigned long saved_context_esp, saved_context_ebp;
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unsigned long saved_context_esi, saved_context_edi;
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unsigned long saved_context_eflags;
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#else
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/* CONFIG_X86_64 */
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struct saved_context saved_context;
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#endif
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/**
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* __save_processor_state - save CPU registers before creating a
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* hibernation image and before restoring the memory state from it
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* @ctxt - structure to store the registers contents in
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*
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* NOTE: If there is a CPU register the modification of which by the
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* boot kernel (ie. the kernel used for loading the hibernation image)
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* might affect the operations of the restored target kernel (ie. the one
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* saved in the hibernation image), then its contents must be saved by this
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* function. In other words, if kernel A is hibernated and different
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* kernel B is used for loading the hibernation image into memory, the
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* kernel A's __save_processor_state() function must save all registers
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* needed by kernel A, so that it can operate correctly after the resume
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* regardless of what kernel B does in the meantime.
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*/
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static void __save_processor_state(struct saved_context *ctxt)
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{
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#ifdef CONFIG_X86_32
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mtrr_save_fixed_ranges(NULL);
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#endif
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kernel_fpu_begin();
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/*
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* descriptor tables
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*/
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#ifdef CONFIG_X86_32
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store_gdt(&ctxt->gdt);
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store_idt(&ctxt->idt);
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#else
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/* CONFIG_X86_64 */
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store_gdt((struct desc_ptr *)&ctxt->gdt_limit);
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store_idt((struct desc_ptr *)&ctxt->idt_limit);
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#endif
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store_tr(ctxt->tr);
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/* XMM0..XMM15 should be handled by kernel_fpu_begin(). */
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/*
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* segment registers
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*/
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#ifdef CONFIG_X86_32
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savesegment(es, ctxt->es);
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savesegment(fs, ctxt->fs);
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savesegment(gs, ctxt->gs);
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savesegment(ss, ctxt->ss);
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#else
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/* CONFIG_X86_64 */
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asm volatile ("movw %%ds, %0" : "=m" (ctxt->ds));
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asm volatile ("movw %%es, %0" : "=m" (ctxt->es));
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asm volatile ("movw %%fs, %0" : "=m" (ctxt->fs));
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asm volatile ("movw %%gs, %0" : "=m" (ctxt->gs));
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asm volatile ("movw %%ss, %0" : "=m" (ctxt->ss));
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rdmsrl(MSR_FS_BASE, ctxt->fs_base);
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rdmsrl(MSR_GS_BASE, ctxt->gs_base);
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rdmsrl(MSR_KERNEL_GS_BASE, ctxt->gs_kernel_base);
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mtrr_save_fixed_ranges(NULL);
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rdmsrl(MSR_EFER, ctxt->efer);
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#endif
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/*
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* control registers
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*/
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ctxt->cr0 = read_cr0();
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ctxt->cr2 = read_cr2();
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ctxt->cr3 = read_cr3();
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#ifdef CONFIG_X86_32
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ctxt->cr4 = read_cr4_safe();
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#else
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/* CONFIG_X86_64 */
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ctxt->cr4 = read_cr4();
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ctxt->cr8 = read_cr8();
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#endif
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ctxt->misc_enable_saved = !rdmsrl_safe(MSR_IA32_MISC_ENABLE,
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&ctxt->misc_enable);
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}
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/* Needed by apm.c */
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void save_processor_state(void)
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{
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__save_processor_state(&saved_context);
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x86_platform.save_sched_clock_state();
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}
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#ifdef CONFIG_X86_32
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EXPORT_SYMBOL(save_processor_state);
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#endif
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static void do_fpu_end(void)
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{
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/*
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* Restore FPU regs if necessary.
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*/
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kernel_fpu_end();
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}
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static void fix_processor_context(void)
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{
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int cpu = smp_processor_id();
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struct tss_struct *t = &per_cpu(init_tss, cpu);
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set_tss_desc(cpu, t); /*
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* This just modifies memory; should not be
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* necessary. But... This is necessary, because
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* 386 hardware has concept of busy TSS or some
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* similar stupidity.
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*/
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#ifdef CONFIG_X86_64
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get_cpu_gdt_table(cpu)[GDT_ENTRY_TSS].type = 9;
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syscall_init(); /* This sets MSR_*STAR and related */
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#endif
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load_TR_desc(); /* This does ltr */
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load_LDT(¤t->active_mm->context); /* This does lldt */
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}
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/**
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* __restore_processor_state - restore the contents of CPU registers saved
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* by __save_processor_state()
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* @ctxt - structure to load the registers contents from
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*/
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static void __restore_processor_state(struct saved_context *ctxt)
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{
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if (ctxt->misc_enable_saved)
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wrmsrl(MSR_IA32_MISC_ENABLE, ctxt->misc_enable);
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/*
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* control registers
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*/
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/* cr4 was introduced in the Pentium CPU */
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#ifdef CONFIG_X86_32
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if (ctxt->cr4)
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write_cr4(ctxt->cr4);
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#else
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/* CONFIG X86_64 */
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wrmsrl(MSR_EFER, ctxt->efer);
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write_cr8(ctxt->cr8);
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write_cr4(ctxt->cr4);
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#endif
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write_cr3(ctxt->cr3);
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write_cr2(ctxt->cr2);
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write_cr0(ctxt->cr0);
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/*
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* now restore the descriptor tables to their proper values
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* ltr is done i fix_processor_context().
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*/
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#ifdef CONFIG_X86_32
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load_gdt(&ctxt->gdt);
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load_idt(&ctxt->idt);
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#else
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/* CONFIG_X86_64 */
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load_gdt((const struct desc_ptr *)&ctxt->gdt_limit);
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load_idt((const struct desc_ptr *)&ctxt->idt_limit);
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#endif
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/*
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* segment registers
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*/
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#ifdef CONFIG_X86_32
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loadsegment(es, ctxt->es);
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loadsegment(fs, ctxt->fs);
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loadsegment(gs, ctxt->gs);
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loadsegment(ss, ctxt->ss);
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/*
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* sysenter MSRs
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*/
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if (boot_cpu_has(X86_FEATURE_SEP))
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enable_sep_cpu();
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#else
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/* CONFIG_X86_64 */
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asm volatile ("movw %0, %%ds" :: "r" (ctxt->ds));
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asm volatile ("movw %0, %%es" :: "r" (ctxt->es));
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asm volatile ("movw %0, %%fs" :: "r" (ctxt->fs));
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load_gs_index(ctxt->gs);
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asm volatile ("movw %0, %%ss" :: "r" (ctxt->ss));
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wrmsrl(MSR_FS_BASE, ctxt->fs_base);
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wrmsrl(MSR_GS_BASE, ctxt->gs_base);
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wrmsrl(MSR_KERNEL_GS_BASE, ctxt->gs_kernel_base);
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#endif
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/*
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* restore XCR0 for xsave capable cpu's.
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*/
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if (cpu_has_xsave)
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xsetbv(XCR_XFEATURE_ENABLED_MASK, pcntxt_mask);
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fix_processor_context();
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do_fpu_end();
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x86_platform.restore_sched_clock_state();
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mtrr_bp_restore();
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}
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/* Needed by apm.c */
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void restore_processor_state(void)
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{
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__restore_processor_state(&saved_context);
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}
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#ifdef CONFIG_X86_32
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EXPORT_SYMBOL(restore_processor_state);
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#endif
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/*
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* When bsp_check() is called in hibernate and suspend, cpu hotplug
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* is disabled already. So it's unnessary to handle race condition between
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* cpumask query and cpu hotplug.
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*/
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static int bsp_check(void)
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{
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if (cpumask_first(cpu_online_mask) != 0) {
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pr_warn("CPU0 is offline.\n");
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return -ENODEV;
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}
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return 0;
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}
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static int bsp_pm_callback(struct notifier_block *nb, unsigned long action,
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void *ptr)
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{
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int ret = 0;
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switch (action) {
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case PM_SUSPEND_PREPARE:
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case PM_HIBERNATION_PREPARE:
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ret = bsp_check();
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break;
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#ifdef CONFIG_DEBUG_HOTPLUG_CPU0
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case PM_RESTORE_PREPARE:
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/*
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* When system resumes from hibernation, online CPU0 because
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* 1. it's required for resume and
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* 2. the CPU was online before hibernation
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*/
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if (!cpu_online(0))
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_debug_hotplug_cpu(0, 1);
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break;
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case PM_POST_RESTORE:
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/*
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* When a resume really happens, this code won't be called.
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*
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* This code is called only when user space hibernation software
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* prepares for snapshot device during boot time. So we just
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* call _debug_hotplug_cpu() to restore to CPU0's state prior to
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* preparing the snapshot device.
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*
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* This works for normal boot case in our CPU0 hotplug debug
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* mode, i.e. CPU0 is offline and user mode hibernation
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* software initializes during boot time.
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*
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* If CPU0 is online and user application accesses snapshot
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* device after boot time, this will offline CPU0 and user may
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* see different CPU0 state before and after accessing
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* the snapshot device. But hopefully this is not a case when
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* user debugging CPU0 hotplug. Even if users hit this case,
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* they can easily online CPU0 back.
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*
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* To simplify this debug code, we only consider normal boot
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* case. Otherwise we need to remember CPU0's state and restore
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* to that state and resolve racy conditions etc.
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*/
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_debug_hotplug_cpu(0, 0);
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break;
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#endif
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default:
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break;
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}
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return notifier_from_errno(ret);
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}
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static int __init bsp_pm_check_init(void)
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{
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/*
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* Set this bsp_pm_callback as lower priority than
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* cpu_hotplug_pm_callback. So cpu_hotplug_pm_callback will be called
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* earlier to disable cpu hotplug before bsp online check.
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*/
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pm_notifier(bsp_pm_callback, -INT_MAX);
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return 0;
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}
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core_initcall(bsp_pm_check_init);
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